Simplified gate driver configuration and display device including the same

1. A gate driver including a plurality of stages having an nth stage, the n th stage comprising: a first circuit configured to output a k th clock as a first scan signal through a first scan signal output node when a voltage of a Q-node is at a high state and a voltage of a QB-node is at low state; and an emission circuit configured to output a gate high voltage (VGH) through an emission control signal output node if (1) a voltage of the first scan signal output node is at the high state and (2) a voltage of an EQ-node is at the high state by an emission control clock (where n and k are positive integers), wherein the emission circuit is electrically connected to the Q-node; and wherein the emission circuit includes an emission control logic circuit and an emission control buffer, the emission control logic circuit including: a first emission control switching element having a gate electrode connected to the first scan signal output node and disposed between an emission control clock line for applying the emission control clock and the EQ-node; a second emission control switching element having a gate electrode connected to the first scan signal output node and disposed between an emission control reset signal line for applying an emission control reset signal and the EQB-node; and a third capacitor disposed between the EQ-node and the emission control signal output node.

2. The gate driver of claim 1 , wherein the emission control buffer comprises: an emission control pull-up switching element having a gate electrode connected to the EQ-node and connected to a gate high voltage line for applying the gate high voltage; and an emission control pull-down switching element having a gate electrode connected to an EQB-node and disposed between a gate low voltage line for applying a gate low voltage and the emission control signal output node.

3. The gate driver of claim 1 , wherein the first circuit includes a first logic circuit and a first buffer.

4. The gate driver of claim 3 , wherein the first buffer comprises: a first pull-up switching element having a gate electrode connected to the Q-node and disposed between a k th clock line for applying the k th clock and the first scan signal output node; and a first pull-down switching element having a gate electrode connected to the QB-node and disposed between a gate low voltage line for applying a gate low voltage (VGL) and the first scan signal output node.

5. The gate driver of claim 4 , wherein a voltage of the first scan signal output node is configured to control operation of the emission circuit, and the first logic circuit outputs the voltage of the Q-node and the voltage of the QB-node, so that they are opposite to each other.

6. The gate driver of claim 4 , wherein the first logic circuit comprises: a first switching element having a gate electrode to receive a first start voltage and connected to a gate high voltage line for applying the gate high voltage; a second switching element having a gate electrode to receive a (k+3) th clock and connected to the Q-node; a third switching element having a gate electrode connected to the QB-node and disposed between the gate low voltage line and the second switching element; a fourth switching element having a gate electrode to receive a (k+2) th clock and connected to the gate high voltage line; a fifth switching element having a gate electrode to receive the first start voltage and disposed between the gate low voltage line and the fourth switching element; and a sixth switching element having a gate electrode connected to the Q-node and disposed between the QB-node and the gate low voltage line; and a first capacitor disposed between the Q-node and the first scan signal output node, wherein an emission control signal output block is electrically connected to the first circuit through the Q-node and the QB-node.

7. The gate driver of claim 1 , further comprising a second circuit electrically connected to the Q-node and configured to output a second scan signal having a phase difference from the first scan signal.

8. The gate driver of claim 7 , wherein the second circuit comprises: a second pull-up switching element having a gate electrode connected to the Q-node and disposed between a fifth clock line for applying a fifth clock and the second scan signal output node; and a second pull-down switching element having a gate electrode connected to the QB-node and disposed between a gate low voltage line for applying a gate low voltage and the second scan signal output node.

9. The gate driver of claim 8 , wherein the emission circuit is connected in parallel with the first circuit and the second circuit at the Q-node and the QB-node.

10. A display device comprising: a display panel including a plurality of pixels; and a gate driver disposed in the display panel and configured to apply gate signals through gate lines connected to each of the plurality of pixels, wherein the gate driver comprises, a first circuit configured to output a k th clock as a first scan signal through a first scan signal output node between a pull-up switching element having a gate electrode connected to a Q-node and a pull-down switching element having a gate electrode connected to a QB-node; and an emission circuit configured to output a gate high voltage synchronized to an emission control clock through an emission control signal output node between an emission control pull-up switching element having a gate electrode connected to an EQ-node and an emission control pull-down switching element having a gate electrode connected to an EQB-node, wherein the emission circuit is connected in parallel to the first circuit at the Q-node and the QB-node; and wherein the emission circuit includes an emission control logic circuit and an emission control buffer, the emission control logic circuit including: a first emission control switching element having a gate electrode connected to the first scan signal output node and disposed between an emission control clock line for applying the emission control clock and the EQ-node; a second emission control switching element having a gate electrode connected to the first scan signal output node and disposed between an emission control reset signal line for applying an emission control reset signal and the EQB-node; and a third capacitor disposed between the EQ-node and the emission control signal output node.

11. The display device of claim 10 , wherein the gate driver further comprises a second circuit electrically connected to the Q-node and configured to output a second scan signal having a phase difference with the first scan signal.

12. The display device of claim 11 , wherein the second circuit comprises: a second pull-up switching element having a gate electrode connected to the Q-node and disposed between a fifth clock line for applying a fifth clock and the second scan signal output node; and a second pull-up switching element having a gate electrode connected to the QB-node and disposed between a gate low voltage line for applying a gate low voltage and the second scan signal output node.

13. The display device of claim 12 , wherein the emission circuit is connected in parallel with the first circuit and the second circuit at the Q-node and the QB-node.